Reducing sediment inputs to Scottish streams: a review of the efficacy of soil conservation practices in upland forestry
Reducing sediment inputs to Scottish streams: a review of the efficacy of soil conservation practices in upland forestry
The historical process by which a soil conservation strategy has evolved within the UK forestry industry is briefly reviewed. Particular attention is given to the development of practical and effective guidelines to prevent both soil damage and sediment entering water courses. It is concluded that the ‘Forest and Water Guidelines’, together with other forest industry manuals, largely provide adequate protection for aquatic habitats from pre-afforestation cultivation and from harvesting activities. The problem of soil erosion owing to ploughing of open furrows has largely been obviated by improved drainage network design coupled with the use of vegetated buffer strips and sediment catchpits. Alternative site preparation techniques, such as ‘moling’ or ‘dolloping’ of afforestation sites, are now preferred. However, the effects on slope hydrology and the improved soil conservation associated with these methods require quantifying. Additional understanding of effective buffer strip function, for example, on a variety of slope angles, soil types and vegetation associations would be beneficial. The design of forest roads and the associated network of drains, culverts and sediment catchpits is addressed in forestry guidelines. Future potential in this area may involve the use of Geographical Information Systems in the effective design of road networks which minimise adverse effects on slope hydrology. Similarly computer simulation of flow routing might aid in the design of road drain networks. At the more local scale there remains scope for further research aimed at minimising soil disturbance by machinery. Consideration should also be given to the long-term sustainability of the soil structure through second and subsequent crop rotations.
Sediments, erosion, forestry, water quality
209-227
Carling, P.A.
8d252dd9-3c88-4803-81cc-c2ec4c6fa687
Irvine, B.J.
0c1d3c11-83b5-4c34-bcfd-4c29533c328a
Hill, A.
4b370ab2-fca3-49d8-a798-4b6f4c0e69c6
Wood, M.
e80db4b2-cf82-4044-a37c-2e23c031e14e
2001
Carling, P.A.
8d252dd9-3c88-4803-81cc-c2ec4c6fa687
Irvine, B.J.
0c1d3c11-83b5-4c34-bcfd-4c29533c328a
Hill, A.
4b370ab2-fca3-49d8-a798-4b6f4c0e69c6
Wood, M.
e80db4b2-cf82-4044-a37c-2e23c031e14e
Carling, P.A., Irvine, B.J., Hill, A. and Wood, M.
(2001)
Reducing sediment inputs to Scottish streams: a review of the efficacy of soil conservation practices in upland forestry.
Science of the Total Environment, 265 (1-3), .
(doi:10.1016/S0048-9697(00)00660-4).
Abstract
The historical process by which a soil conservation strategy has evolved within the UK forestry industry is briefly reviewed. Particular attention is given to the development of practical and effective guidelines to prevent both soil damage and sediment entering water courses. It is concluded that the ‘Forest and Water Guidelines’, together with other forest industry manuals, largely provide adequate protection for aquatic habitats from pre-afforestation cultivation and from harvesting activities. The problem of soil erosion owing to ploughing of open furrows has largely been obviated by improved drainage network design coupled with the use of vegetated buffer strips and sediment catchpits. Alternative site preparation techniques, such as ‘moling’ or ‘dolloping’ of afforestation sites, are now preferred. However, the effects on slope hydrology and the improved soil conservation associated with these methods require quantifying. Additional understanding of effective buffer strip function, for example, on a variety of slope angles, soil types and vegetation associations would be beneficial. The design of forest roads and the associated network of drains, culverts and sediment catchpits is addressed in forestry guidelines. Future potential in this area may involve the use of Geographical Information Systems in the effective design of road networks which minimise adverse effects on slope hydrology. Similarly computer simulation of flow routing might aid in the design of road drain networks. At the more local scale there remains scope for further research aimed at minimising soil disturbance by machinery. Consideration should also be given to the long-term sustainability of the soil structure through second and subsequent crop rotations.
This record has no associated files available for download.
More information
Published date: 2001
Keywords:
Sediments, erosion, forestry, water quality
Identifiers
Local EPrints ID: 15890
URI: http://eprints.soton.ac.uk/id/eprint/15890
PURE UUID: b7410eae-fed7-4f7d-b22b-7e7b3a8b72c0
Catalogue record
Date deposited: 21 Jun 2005
Last modified: 15 Mar 2024 05:44
Export record
Altmetrics
Contributors
Author:
B.J. Irvine
Author:
A. Hill
Author:
M. Wood
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics